Artificial organs
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Blood transfusion systems have greatly benefited human health and welfare. Nevertheless, some problems remain: infection, blood type mismatching, immunological response, short shelf life, and screening test costs. Blood substitutes have been under development for decades to overcome such problems. ⋯ Hb-vesicles (HbV) are a cellular type of HBOC that overcome these issues. The in vivo safety and efficacy of HbV have been studied extensively. The results illustrate the potential of HbV as a transfusion alternative and promise its use for other clinical applications that remain unattainable using RBC transfusion.
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Hemoglobin-based oxygen carriers have been under development for decades, but safety concerns have prevented commercial approval. Early designs for modified hemoglobins by polymerization or intramolecular cross-linking reactions increased molecular size and decreased oxygen affinity, but all exhibited side effects of vasoconstriction and reduced blood flow. A new strategy has been established by applying principles of oxygen transport to cell-free hemoglobin. ⋯ In contrast to early-generation products, Hemospan infusion maintains normal arteriolar vascular tone and capillary flow. Phase I and Phase II clinical trials have been completed, showing that Hemospan is well-tolerated in humans, with evidence of efficacy to impart hemodynamic stability in surgical patients under anesthesia. Phase III trials in orthopedic surgery have recently completed enrollment in Europe.